GABAA Receptors Containing ρ1 Subunits Contribute to In Vivo Effects of Ethanol in Mice

Blednov, Yuri A.; Benavidez, Jillian M.; Black, Mendy; Leiter, Courtney; Osterndorff-Kahanek, Elizabeth A.; Johnson, D. B.; Borghese, Cecilia M.; Hanrahan, Jane R.; Johnston, Graham A.R.; Chebib, Mary; Harris, R. Adron

doi:10.1371/journal.pone.0085525

Cited by 49 publications

(53 citation statements)

References 56 publications

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“…There are two GABA receptors, the ionotropic GABAA receptor and the metabotropic GABAB receptor. In the adult brain, GABA acts primarily through activation of the fast-hyperpolarizing GABAA receptors that are ligand-gated chloride ion channels comprised of a, B, y and 8 subunits in a heteropentameric structure [76, 77]. GABAB receptors are responsible for the later and slower component of inhibitory transmission [78] and are composed of two subunits, 1 and 2.…”

Section: Gaba In the Cortexmentioning

confidence: 99%

Advances in the Understanding of the Gabaergic Neurobiology of FMR1 Expanded Alleles Leading to Targeted Treatments for Fragile X Spectrum Disorder

Lozano¹,

Martínez‐Cerdeño²,

Hagerman³

2015

CPD

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Fragile X spectrum disorder (FXSD) includes: fragile X syndrome (FXS), fragile X-associated tremor ataxia syndrome (FXTAS) and fragile X-associated primary ovarian insufficiency (FXPOI), as well as other medical, psychiatric and neurobehavioral problems associated with the premutation and gray zone alleles. FXS is the most common monogenetic cause of autism (ASD) and intellectual disability (ID). The understanding of the neurobiology of FXS has led to many targeted-treatment trials in FXS. The first wave of phase II clinical trials in FXS were designed to target the mGluR5 pathway; however the results did not show significant efficacy and the trials were terminated. The advances in the understanding of the GABA system in FXS have shifted the focus of treatment trials to GABA agonists, and a new wave of promising clinical trials is under way. Ganaxolone and allopregnanolone (GABA agonists) have been studied in individuals with FXSD and are currently in phase II trials. Both allopregnanolone and ganaxolone may be efficacious in treatment of FXS and FXTAS, respectively. Allopregnanolone, ganaxolone, riluzole, gaboxadol, tiagabine, and vigabatrin are potential GABAergic treatments. The lessons learned from the initial trials have not only shifted the targeted system, but also have refined the design of clinical trials. The results of these new trials will likely impact further clinical trials for FXS and other genetic disorders associated with ASD.

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Section: Gaba In the Cortexmentioning

confidence: 99%

Advances in the Understanding of the Gabaergic Neurobiology of FMR1 Expanded Alleles Leading to Targeted Treatments for Fragile X Spectrum Disorder

Lozano¹,

Martínez‐Cerdeño²,

Hagerman³

2015

CPD

View full text Add to dashboard Cite

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“…When GABA binds to these receptors at the post-synaptic site, the ion channel opens and chloride (Cl − ) diffuses into the cell along its concentration gradient, thus hyperpolarizing the post-synaptic mature neuron (Luján et al 2005; Blednov et al 2014). Fast ionotropic GABA A receptors are are ligand-gated chloride ion channels comprised of α, β, γ and δ subunits in a heteropentameric structure (Macdonald and Olsen 1994; Blednov et al 2014). There is additional diversity within subunit families, contributing to further heterogeneity of the GABA A receptor (Macdonald and Olsen 1994).…”

Section: Introductionmentioning

confidence: 99%

GABA receptors in brain development, function, and injury

2014

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This review presents a brief overview of the γ-aminobutyric acid (GABA) system in the developing and mature central nervous system (CNS) and its potential connections to pathologies of the CNS. γ-aminobutyric acid (GABA) is a major neurotransmitter expressed from the embryonic stage and throughout life. At an early developmental stage, GABA acts in an excitatory manner and is implicated in many processes of neurogenesis, including neuronal proliferation, migration, differentiation, and preliminary circuit-building, as well as the development of critical periods. In the mature CNS, GABA acts in an inhibitory manner, a switch mediated by chloride/cation transporter expression and summarized in this review. GABA also plays a role in the development of interstitial neurons of the white matter, as well as in oligodendrocyte development. Although the underlying cellular mechanisms are not yet well understood, we present current findings for the role of GABA in neurological diseases with characteristic white matter abnormalities, including anoxic-ischemic injury, periventricular leukomalacia, and schizophrenia. Development abnormalities of the GABAergic system appear particularly relevant in the etiology of schizophrenia. This review also covers the potential role of GABA in mature brain injury, namely transient ischemia, stroke, and traumatic brain injury/post-traumatic epilepsy.

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“…Some known intracellular effects of acute ethanol administration include tyrosine phosphatase and adenylyl cyclase activation (31, 32). At lower doses, ethanol is thought to interact with a variety of cell surface receptors, particularly neurotransmitter receptors, in an agonistic or antagonistic manner (33, 34). During chronic exposure to ethanol, gene expression can be altered, potentially contributing to the differences that chronic alcoholism and binge drinking exert on immune function (35).…”

Section: Introductionmentioning

confidence: 99%

Ethanol and Other Short-Chain Alcohols Inhibit NLRP3 Inflammasome Activation through Protein Tyrosine Phosphatase Stimulation

Hoyt

Ather

Randall

et al. 2016

The Journal of Immunology

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Immunosuppression is a major complication of alcoholism that contributes to increased rates of opportunistic infections and sepsis in alcoholics. The NLRP3 inflammasome, a multi-protein intracellular pattern recognition receptor complex that facilitates the cleavage and secretion of the pro-inflammatory cytokines IL-1β and IL-18, can be inhibited by ethanol and we sought to better understand the mechanism through which this occurs and whether chemically similar molecules exert comparable effects. We show that ethanol can specifically inhibit activation of the NLRP3 inflammasome, resulting in attenuated IL-1β and caspase-1 cleavage and secretion, as well as diminished ASC speck formation, without affecting potassium efflux, in a mouse macrophage cell line (J774), mouse bone marrow derived dendritic cells, mouse neutrophils, and human PBMCs. The inhibitory effects on the Nlrp3 inflammasome were independent of GABAA receptor activation or NMDA receptor inhibition, but was associated with decreased oxidant production. Ethanol treatment markedly decreased cellular tyrosine phosphorylation, while administration of the tyrosine phosphatase inhibitor sodium orthovanadate prior to ethanol restored tyrosine phosphorylation and IL-1β secretion subsequent to ATP stimulation. Furthermore, sodium orthovanadate-induced phosphorylation of ASC Y144, necessary and sufficient for Nlrp3 inflammasome activation, and secretion of phosphorylated ASC, were inhibited by ethanol. Finally, multiple alcohol-containing organic compounds exerted inhibitory effects on the Nlrp3 inflammasome, whereas 2-methylbutane (isopentane), the analogous alkane of the potent inhibitor isoamyl alcohol (isopentanol), did not. Our results demonstrate that ethanol antagonizes the NLRP3 inflammasome at an apical event in its activation through the stimulation of protein tyrosine phosphatases, an effect shared by other short-chain alcohols.

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GABAA Receptors Containing ρ1 Subunits Contribute to In Vivo Effects of Ethanol in Mice

Cited by 49 publications

References 56 publications

Advances in the Understanding of the Gabaergic Neurobiology of FMR1 Expanded Alleles Leading to Targeted Treatments for Fragile X Spectrum Disorder

Advances in the Understanding of the Gabaergic Neurobiology of FMR1 Expanded Alleles Leading to Targeted Treatments for Fragile X Spectrum Disorder

GABA receptors in brain development, function, and injury

Ethanol and Other Short-Chain Alcohols Inhibit NLRP3 Inflammasome Activation through Protein Tyrosine Phosphatase Stimulation

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